Recombinant Flu Shots Extend Protection to Children

The quadrivalent recombinant influenza vaccine (RIV4) demonstrated non-inferior immune responses in children and adolescents aged 9-17 years compared with adults aged 18-49 years, with the safety profile comparable between both age groups, providing a suitable alternative to egg-based formulations for children.
METHODOLOGY:
Researchers conducted a phase 3, non-randomised, immunobridging study during the 2022-2023 northern hemisphere influenza season to evaluate whether immune responses to RIV4 in children (aged 9-17 years) were non-inferior to those in adults (aged 18-49 years).
They enrolled 648 children and adolescents (mean age, 13 years; 52% boys) and 660 adults (mean age, 34.3 years; 40% men).
All participants received a single intramuscular dose of RIV4 (45 μg haemagglutinin of each of A/H1N1, A/H3N2, B/Victoria, and B/Yamagata strains) and were monitored for 6 months on days 9, 29, and 181.
The endpoint was measured using haemagglutination inhibition (HAI) titre ratios and the difference in seroconversion rates at day 29 post-vaccination.
Non-inferiority was established if the lower limit of the 95% CI exceeded 0.667 for geometric mean titre ratios and −10% or above for seroconversion, for each of the four strains.
TAKEAWAY:
At day 29, the ratio of geometric mean HAI titres between children and adolescents and adult groups was well above the prespecified non-inferiority margin for A/H1N1 (2.0; 95% CI, 1.7-2.3), H3N2 (3.3; 95% CI, 2.8-3.9), B/Victoria (1.6; 95% CI, 1.4-1.8), and B/Yamagata (1.2; 95% CI, 1.1-1.4) strains.
Similarly, the difference in seroconversion rates between the two groups was also above the prespecified non-inferiority margin for all the four strains.
The safety profile of RIV4 was comparable between the two groups; however, solicited reactions within 7 days post-vaccination were less common in children and adolescents than in adults.
None of the serious and medically attended adverse events were related to the vaccine, and no deaths or adverse events of special interest were reported in either group.
IN PRACTICE:
"Having multiple influenza vaccine options is crucial to successfully combating influenza, and these options need to be available for children. Prioritising children in influenza vaccine studies is an important step in combating the global burden of influenza," the authors of a commentary wrote.
SOURCE:
This study was led by Pedro M. Folegatti, DPhil, Sanofi, Marcy-l'Étoile, France. It was published online on May 21, 2025, in The Lancet Infectious Diseases .
LIMITATIONS:
This study did not investigate immune responses in children younger than 9 years. The evaluation was limited to just one influenza season, and no clinical testing for influenza disease or infection was conducted, potentially accounting for some of the increased antibody responses observed.
DISCLOSURES:
This study was funded by Sanofi. Seven authors reported being employees of and may have held shares in Sanofi. Two other authors reported having financial ties with other pharmaceutical companies.

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Yahoo

2 hours ago

• Yahoo

Antarctic seal numbers falling drastically due to melting sea ice, research shows

Antarctic seal populations are drastically declining as the sea ice melts around them, new research has shown. Researchers from the British Antarctic Survey (BAS) have been monitoring the seal population in the sub-Antarctic since the 1970s, looking in particular at three different seal species in the sub-Antarctic on Signy Island: Weddell seals, Antarctic fur seals and southern elephant seals. Using satellite records from as far back as 1982, the research team compared annual changes in sea ice concentration with seal population counts conducted since 1977. With five decades worth of data spanning a period of long-term warming and temporary cooling between 1998 and 2014, they were able to draw a comprehensive picture of how seal populations react to changing ice conditions, something shorter-term studies would not be able to achieve. The study, published in the scientific journal Global Change Biology, found Weddell seals (leptonychotes weddellii), which rely on stable sea ice to rest, breed and feed, had declined by 54% since 1977. Similarly, Antarctic fur seals (arctocephalus gazella), which breed on land but are affected by food chain shifts, have declined by 47%. The findings challenge previous assumptions that the population in the South Orkneys had stabilised. Southern elephant seals (mirounga leonina), despite sharing similar population trends, presented 'no significant overall long-term decline'. The study serves to emphasise the 'vital importance of long-term ecological monitoring' as well as the interconnectedness between the three species of seal and sea ice conditions. Michael Dunn, lead author of the study, said: 'For once, we're not just predicting how wildlife might respond to shrinking sea ice and environmental shifts, we've had the rare opportunity to confirm it, using solid, long-term data. The emerging picture is deeply concerning.' In light of the BAS's findings, researchers have also raised concerns about how climate breakdown is affecting the Antarctic food web, relied on by all three species.

Yahoo

2 hours ago

• Yahoo

Experts celebrate as trail cameras capture once-in-a-lifetime photograph of 'forgotten' creature: 'The feeling was unbelievable'

A once-in-a-lifetime photograph of the Upemba lechwe has been published after one of the most endangered African animals momentarily paused for the camera. While the image is fuzzy, it clearly shows the endangered "forgotten antelope" standing in a grassy field — almost as if he's proudly posing for the now-famous photo. "The feeling was unbelievable," said Manuel Weber of the Department of Research and Biomonitoring at Upemba National Park, according to the Guardian. Researchers had feared they might not find any lechwe at all during the survey. But the camera told a different story. The antelope stopped for "literally a few seconds." What makes this photo so special? This sighting marks the first photographic evidence of a living Upemba lechwe since 2005, making it a significant breakthrough for the species and conservation efforts across the region. Experts estimate fewer than 100 Upemba lechwe remain in the wild, which makes every single sighting incredibly valuable. Researchers captured the photo in Upemba National Park, a remote region in the Democratic Republic of the Congo, where lechwe once roamed in far greater numbers. For years, conservationists worried the species might already be lost — wiped out by decades of poaching and habitat destruction. But during a recent aerial survey, researchers spotted one from above and managed to snap a quick photo. It's a small moment but a powerful one. "We hope this image becomes a rallying cry," Weber stated, according to the Guardian. "Because this may be our only chance to save this species." Protecting species like the Upemba lechwe doesn't just help preserve biodiversity — it also supports the livelihoods of nearby communities, bolsters food chains, and strengthens ecosystems that humans depend on. Smart management of our environment ensures more than just wildlife survival — it helps drive progress toward a cleaner, safer future for everyone. Cameras are proving to be powerful tools for scientists. While researchers used an aerial device for this image, conservationists often rely on trail cameras to non-invasively track elusive species and monitor their population health over time. Should the government be able to control how we heat our homes? Definitely Only if it saves money I'm not sure No way Click your choice to see results and speak your mind. Trail cams can also show when things are starting to go right — whether it's a species coming back, new babies being born, or animals returning to old migration paths. It's all proof that careful, thoughtful stewardship of the environment makes a real difference. When we manage habitats wisely, we're not just helping wildlife — we're protecting the systems that grow our food, filter our water, and support our communities. A healthy ecosystem doesn't just benefit the animals in it — it helps people, too. Join our free newsletter for good news and useful tips, and don't miss this cool list of easy ways to help yourself while helping the planet.

Forbes

3 hours ago

• Forbes

2 Ways That ‘Childhood Trauma' Rewires The Brain — By A Psychologist

Research reveals how childhood trauma restructures the brain and immune system in ways that can last ... More well into adulthood. Most well-informed people are aware of how often traumatic childhood experiences are associated with serious mental health conditions later in life. What few people know, however, is how exactly trauma gives rise to these disorders. Some attribute it to emotional scarring, or psychological wounds that live only in the mind. But according to 2022 research from Brain, Behavior, & Immunity - Health, these wounds are in no way metaphorical. To the brain, trauma can be as real and physical as a cut, a burn or a broken bone. Here are two major ways that childhood trauma physically reshapes the brain, essentially rewiring individuals biologically. 1. Trauma Trains The Body And Brain To Stay On High Alert When a child is exposed to repeated threats, their body and brain have no choice but to adapt. And one of the first systems to respond, in such cases, is the immune system. As you may already know, the immune system's primary purpose is to protect us in situations it perceives to be risky. In most cases, this pertains to illness, injury, infections, viruses, bacteria and so on — but also to stressful situations. Should it sense a threat of any of these kinds, it readies itself to respond. But when abuse, neglect or instability are the norm in a child's life, their immune system remains ready and activated. The body cannot afford to respond to these environmental stressors in the way it would to a specific, localized or short-lived threat; constant threats necessitate constant vigilance. As such, since the immune system believes it's permanently at risk, it operates accordingly at all times. It produces chemical messengers — specifically, inflammatory molecules — to protect the body from infection or injury, but in extreme excess. However, without any physical wounds to tend to, this overproduction gives rise to chronic inflammation. Astoundingly, the 2022 study discovered elevated levels of these inflammatory markers years, even decades, after the participants' trauma. Typically, these inflammatory molecules are transmitted via the bloodstream to whichever site they're needed; in healthy individuals, the blood-brain barrier (BBB) usually prevents them from entering the brain. But, with enough exposure to trauma, this barrier can become much easier to bypass. As a result, these molecules begin crossing into the brain, where they're not usually meant to go. Once they cross the barrier, they begin to interfere with key neurological functions. This, in turn, can significantly impact a child's mood, memory or attention. Notably, if the body never gets the message that it's safe — that is, if a child is constantly exposed to trauma without any breaks — this state of hypervigilance can eventually give rise to serious mental health challenges. And, in severe cases, the brain's physical architecture begins to shift in response to the ongoing sense of danger. 2. Trauma Can Cause White Matter To Fray To understand what this chronic inflammation can do, it helps to think of the brain in the same way you would a town, rather than just an arbitrary collection of parts or lobes. This town is built with two primary materials: white and gray matter. In the simplest of terms, white matter is what keeps your brain running smoothly. It comprises billions of long, fibrous threads that allow your most important brain regions (your gray matter) to communicate with one another. In this case, gray matter would be the neighborhoods of the town, where your thoughts and feelings 'live.' White matter, on the other hand, is the highway system they use to travel. According to the 2022 study, individuals with bipolar disorder who had experienced adverse childhood experiences showed clear signs of white matter disruption. Specifically, their brain scans revealed lower levels of fractional anisotropy, which is a measure used to assess how coherent and structured these white matter tracts are. In essence, the aforementioned inflammation can result in lasting damage to an individual's white matter. In most cases, this means the brain's internal communication system will function less efficiently than that of a person without trauma. When white matter is intact and well-organized, it acts much like well-planned and well-looked after roads: information moves quickly and efficiently across the brain. But once white matter connections are lost, tangled or damaged, those signals slow down or get misrouted — much like cars do on a road with potholes, cracks or fading paint. This is exactly what the brain looks like when it's frequently exposed to trauma in early life: a collection of unkempt, interconnected roads, on which cars struggle significantly to travel. And this kind of 'unkemptness' in the brain's highway system has very real, functional consequences. The study notes that damage to the white matter's structural integrity can lead to miscommunication between some of the brain's most essential regions. In turn, it's considerably more challenging for the emotional centers of the brain to communicate with the areas responsible for logic and regulation. This can lead to dysfunction in: As a result, an individual might feel perpetually on edge without ever really knowing why. Even in situations where they have every logical reason to feel safe, they might struggle to calm themselves down. And despite immense exhaustion or tiredness, they might find themselves lying wide awake at night. Even the smallest, most inconsequential decisions can feel overwhelming, since the mental routes that once effortlessly facilitated those processes can feel as though they're punctuated with delays and detours. Unfortunately, these responses can persist well into adulthood, and well past their years of trauma. That said, this doesn't mean that the brain is 'broken,' nor that it has 'failed.' It just means that the brain has adapted to danger and inflammation in the only way it was designed to: by reinforcing defensive pathways to protect itself. When faced with trauma, the brain makes an executive decision to prioritize survival over flexibility — even if that means day-to-day functioning might be a bit more difficult later on in life. This is a sign of resilience, not failure. The effects of trauma can linger, but so can resilience. Take this science-backed test to find out how you respond to life's challenges: Brief Resilience Scale